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Introduction
D-Link
announces its latest addition to the D-Link
AirPlus Xtreme™ G series of wireless
networking products–the DWL-G820 High-Speed
Wireless Gaming Adapter. The DWL G820 adds
802.11g wireless connectivity to your Ethernet-enabled
gaming console**.
The
DWL-G820 Wireless Gaming Adapter works with
any Ethernet-ready game console, making it
ideal for both head-to-head and online gaming.
Use Wireless Gaming Adapters to connect two
game systems to each other or use one to connect
your system to a wireless network.
In
addition, you can use the DWL-G820 Wireless
Gaming Adapter to make any Ethernet-enabled
device, such as a media set-top box, wireless.
The DWL-G820 is a true plug & play device
that requires no configuration and is ready
to work right out of the box.
The
DWL-G820 Wireless Game Adapter is also highly
configurable, using any Java-enabled Web browser.
With support for several advanced features
including Wi-Fi Protected Access (WPA) and
128-bit WEP encryption, the Wireless Gaming
Adapter also protects your wireless signal.
The
DWL-G820 Wireless Gaming Adapter uses D-Link
108 Technology for data transfer rates that
are 15x faster than standard 802.11b rates*
and works with all 802.11g networks. The device
is also backwards compatible with 802.11b
wireless networks. This Gaming Adapter provides
lag-free performance and allows your gaming
console to join your wireless network.
*
When used solely with D-Link AirPlus Xtreme
G products. Maximum wireless signal rate derived
from IEEE Standard 802.11g specifications.
Actual data throughput will vary. Network
conditions and environmental factors, including
volume of network traffic, building materials
and construction, and network overhead, lower
actual data throughput rate. Environmental
factors will adversely affect wireless signal
range.
** Wireless connectivity for your Ethernet-enabled
device. May require an additional network
adapter.
Works
With all Wireless 108G Products.
Specifications
| Standards |
| . |
IEEE
802.11g |
| . |
IEEE
802.11b |
| . |
IEEE
802.3 |
| . |
IEEE
802.3u |
| . |
IEEE
802.3x |
|
| Device
Management |
| . |
Web-based
- Internet Explorer v.6 or
later; Netscape Navigator v.6 or
later;
or other Java-enabled browser |
| . |
Telnet |
|
| Wireless
Signal Rates* With Automatic Fallback |
For
802.11g:
| . |
108,
54, 48, 36, 24, 18, 12, 9 and 6Mbps |
For
802.11b:
|
| Security |
| . |
64/128/152-bit
WEP |
| . |
WPA
- Wi-Fi Protected Access (WPA-TKIP
and WPA-PSK)
|
|
| Wireless
Frequency Range |
|
| Wireless
Signal Range* |
| . |
Indoors:
Up to 328 ft (100 meters) |
| . |
Outdoors:
Up to 1312 ft (400 meters) |
|
| Radio
and Modulation Type |
| . |
DQPSK,
DBPSK and CCK |
| . |
BPSK,
QPSK, 16QAM, 64QAM, OFDM |
|
| External
Antenna Type |
| . |
Dipole
antennas with 2dBi gain |
|
| LEDs |
| . |
Power |
| . |
WLAN
(Wireless Connection) |
|
| Receiver
Sensitivity* |
| . |
54Mbps
OFDM, 10% PER,-66dBm |
| . |
48Mbps
OFDM, 10% PER,-71dBm |
| . |
36Mbps
OFDM, 10% PER,-76dBm |
| . |
24Mbps
OFDM, 10% PER,-80dBm |
| . |
18Mbps
OFDM, 10% PER,-83dBm |
| . |
12Mbps
OFDM, 10% PER,-85dBm |
| . |
11Mbps
CCK, 8% PER,-83dBm |
| . |
9Mbps
OFDM, 10% PER,-86dBm |
| . |
6Mbps
OFDM, 10% PER,-87dBm |
| . |
2Mbps
OFDM, 10% PER,-89dBm |
|
| Wireless
Transmit Power |
Typical
RF Output Power at each Data Rate
| . |
+14~15dBm
at 54, and 108Mbps |
| . |
+14~16dBm
at 48Mbps |
| . |
+16~18dBm
at 36, 24, 18, 12, 9, and 6Mbps |
| . |
+14~15dBm
at 54, and 108Mbps |
|
| Operating
Voltage |
|
| Temperature |
| . |
Operating:
32ºF to 104ºF (0ºC to 40ºC) |
| . |
Storing:
-4ºF to 149ºF (-20ºC to 65ºC) |
|
| Humidity |
| . |
Operating:
10%~90% (non-condensing) |
| . |
Storing:
5%~95% (non-condensing) |
|
| Certifications |
|
| Dimensions |
| . |
L
= 4.1 inches (103mm) |
| . |
W
= 2.4 inches (62mm) |
| . |
H
= 1.1 inches (27mm) |
|
| Warranty |
|
*
Maximum wireless signal rate derived from
IEEE Standard 802.11g specifications. Actual
data throughput will vary. Network conditions
and environmental factors, including volume
of network traffic, building materials and
construction, and network overhead, lower
actual data throughput rate. Environmental
conditions will adversely affect wireless
signal range.
Photos
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